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Monitoring antimicrobial resistance in the veterinary field: Norway -Special reference to MRSA, ESBLs and antimicrobial use to farmed fish Marianne Sunde National Veterinary Institute Oslo, Norway Outline: The Norwegian monitoring programme for antimicrobial resistance MRSA from animals in Norway ESBLs from animals in Norway Antimicrobial usage to farmed fish Methicillin resistant Staphylococcus pseudintermedius (MRSP) from dogs in Norway NORM-VET monitoring programme for antimicrobial resistance in the veterinary and food production sectors Running since year 2000 Annual joint report NORM (human)/NORM-VET NORM-VET resistance testing of: - zoonotic pathogens – Campylobacter-Salmonella - indicator bacteria – E. coli, Enterococci - animal pathogens - E. coli, Staphs, Ent.hirae - indicator bacteria from wild animals – E. coli - fish pathogens – Moritella viscosa, Vibrio anguillarum Bacterial isolates to NORM-VET: From other surveillance and control programs From veterinarians/clinics invited to participate Bacteriological diagnostic service – National Veterinary Institute Methods: Broth micro dilution method (VetMICTM) NORM-VET is coordinated by the Norwegian Zoonosis Centre Resistance testing: Section of bacteriology National Veterinary Institute, Oslo Resistance trends during 2000-2010 Food producing animals - indicator bacteria; Relatively low/moderate resistance occurrence (E. coli) - resistance to streptomycin, tetracycline, sulphonamides, ampicillin - animal species variation: lowest occurrence from sheep and cattle, higher in pigs and broiler Relatively stable resistance frequencies, BUT: - increase in quinolone resistance in E. coli from broiler in 2009 ?? Food producing animals - pathogens; - For many bacterial species limited samples sizes - Relatively low resistance occurrence, example: S. aureus mastitis 5-7% PENR Resistance trends during 2000-2010 Zoonotic pathogenic bacteria: - Relatively low/moderate resistance occurrence - Example: Campylobacter jejuni broiler: less than 5% Cipr/NalR Salmonella: Low prevalence in animals in Norway Low resistance occurrence Salmonella reservoar in Norway: Wild birds and hedgehog – susceptible variants Resistance trends during 2000-2010 Companion animals: -Resistance among β-hemolysin producing Staphylococci from dogs: PENR 75%, TETR 40%, FUSR 60% - Increased MRSP occurrence in Norway 2008-2010 NORM-VET – future challenges: Reduced program ? - year 2000/2001: 13-1400 isolates - year 2008/2009: 6-800 isolates More use of selective methods (MRSA – ESBL) More data on fish pathogens ? MRSA in animals - Norway MRSA ST398 not detected from animals in Norway Have we searched for MRSA in animals ? Baseline survey 2008, dust from 256 pig holdings, one MRSA finding, MRSA ST8/t008 Slaughterhouse study in 2008, 1000 pigs (nasal swabs) 200 holdings, no MRSA, 2 S. aureus Horses NORM-VET 2009, 200 horses, nasal swabs – no MRSA Pigs in NORM-VET 2011 ?? MRSA ST8/t008 in a pig holding MRSA ST8/t008; a common human MRSA type in Norway Low prevalence of MRSA among humans in Norway 11,7 % t002 t008 t019 29,1 % t044 10,1 % t304 t223 t437 t032 t067 t127 9,6 % nt t010 1,3 % 1,3 % 1,3 % 1,3 % 1,4 % 1,4 % 1,4 % 1,4 % 1,9 % 2,0 % 2,2 % t015 t026 t690 6,8 % t021 t065 5,4 % 2,6 % 2,9 % 4,8 % t311 t324 Others Most frequent spa-types in Norway in 2008 Norwegian reference laboratory for MRSA EARSS Annual Report 2006. Bilthoven: European Antimicrobial Resistance Surveillance System (EARSS), 2007 MRSA ST8/t008 in a pig holding • Most probably human-to-animal transmission of MRSA • Human to livestock MRSA transmission • The pigs were not heavily colonized with MRSA – in contrast to what is reported for MRSA ST398 in pigs • MRSA ST8/t008 perhaps more adapted to humans ? Not the same ability to colonize/persist as animal(pig) adapted S. aureus types ? MRSA in animals in Norway Other known animal MRSA cases in Norway: Year 2002 2008 2008 2008 2009 Species Horse Cat Dog Dog Cat Source Unknown MRSA positive owner MRSA positive owner Surgery in Spain ? MRSA positive owner ST/CC/spatype ST8 ST45 t1081 ST8 t324 ST22 t032 ST8 t008 ESBLs in animals - Norway Food producing animals One isolate, E. coli broiler, NORM-VET 2006 Companion animals Six isolates (three ESBLs/three AmpC), all E. coli One isolate from NORM-VET 2008 Five from diagnostic submissions, National Veterinary Institute ESBLs in animals - Norway ESBL from broiler, NORM-VET 2006 Intestinal flora of healthy animal Low MICs to cephalosporins: MIC=1 MIC=4 ESBLs in animals - Norway Genetic investigasjon ESBL broiler: blaTEM-20 gene on a conjugative plasmid Plasmid replicon typing: incI1 plasmid blaTEM-20 gene with similar MICs from in Salmonella paratyphi B dT+ from poultry in the Netherlands (Hasman 2005) Comparison studies: Both blaTEM-20 genes located on incI1 plasmids blaTEM-20 nt sequence and promoter 100% identical → Equal plasmids in E. coli from broiler in Norway and Salmonella paratyphi B+ from the Netherlands ? ESBLs in animals - Norway Plasmid multi locus sequence typing (pMLST) of incI1 plasmids (Garcia-Fernandez et al 2008) Amplification and sequencing of five regions on incI1 plasmids, allelic profil Result: Identical nt sequences both incI1 plasmids → equal/closely related blaTEM-20 plasmids from Norway and the Netherlands (Sunde et al, 2009) Why ESBLs in broiler in Norway ? - No selection pressure for cephalosporin usage - Import of breeding animals to Norway ? - A ”fitness” plasmid ? ? ESBLs in animals - Norway One nt difference between blaTEM-20 and blaTEM-52 blaTEM-52 mediates A high level resistance to cephalosporins incI1 plasmid carrying blaTEM-52 is widely disseminated in Salmonella from humans and poultry in France and Belgium (Clockart et el 2007) ESBLs in animals - Norway Sequencing of the resistance region (6 KB) → blaTEM-20 and blaTEM-52 the same genetic organization pMLST showed that the blaTEM-20 and blaTEM-52 plasmids are closely related (Sunde et al, 2009) ESBLs in animals - Norway Overview of ESBLs and AMPc from animals in Norway: year 2006 2007 2008 2009 2009 2009 2010 Species gene broiler, healthy blaTEM-20 dog, wound CTX-M-15 dog, healthy CTX-M-15 dog, infection CTX-M-14 dog, wound postoperative blaCMY dog, sepsis puppy blaDHA dog, skin infection blaCMY Antimicrobial agents to farmed fish - Norway Intensive fish farming since mid 1970s - Atlantic salmon - main species Succeed in domestication of salmon has been of major importance Other species: Cod, Halibut, Trout Antimicrobial agents to farmed fish - Norway Major diseases today: Viral diseases (pancreas disease/infectious pancreas necrosis) Bacterial infections (Moritella viscosa, Francisella spp) Antimicrobial agents to farmed fish (NORM/NORM-VET 2009): Antimicrobial agents to farmed fish - Norway Disease control – a vital factor for the expansion of the aquaculture industry Problems with infectious diseases during the 80s and early 90s: Vibrio anguillarum (cold-water vibriosis) Vibrio salmonicida Aeromonas salmonicida (furunculosis) → Gave mass mortality and massive antibiotic consumption Today: controlled by effective vaccines and preventive measures Antimicrobial agents to farmed fish - Norway Antimicrobial agents to farmed fish - Norway Grave and Hanssen 2005 The antimicrobial usage to farmed fish is reduced by 98% during the last 20 years Antimicrobial agents to farmed fish – future challenges Domestication and farming of new species – new diseases Farmed cod – Francisella spp infections 1600 1400 salmon 2008 Ca. 741 000 tons 1200 1000 active800 ingredient 600 (kg) cod 2008 Ca. 13 500 tons 400 200 0 2001 2002 2003 2004 2005 2006 2007 2008 Norwegian Institute of Public Health cod 65% Methicillinresistant Staphylococcus pseudintermedius (MRSP) from dogs First case 2008 – outbreak small animal clinic Increase in MRSP from dogs ? - 2008: MRSP from 2 dogs - 2009: MRSP from 7 dogs - 2010: MRSP from 12 dogs Molecular typing (MLST - PFGE): - Clonal diversity - Few isolates belonging to ST 71 (the dominant clone in Europe ?) Antimicrobial resistance in Norway – veterinary sector Food producing animals: relatively low/moderate occurrence of resistance but: MRSA and ESBL detected Companion animals: relatively high resistance prevalences (Staphylococci) MRSA and ESBLs detected MRSP not uncommon ? Farmed fish: limited/no knowledge resistance in fish pathogens usage of antimicrobial agents stable but: Farmed cod – increased usage ?? Thank you for your attention